Blowing agent composition containing zinc formate and metal salt activator

ABSTRACT

A blowing agent composition is provided comprising: 
     (a) zinc formate, and 
     (b) a compound having the formula M m  X, wherein M is sodium or potassium; X is chlorine, bromine, iodine, CO 3 , HCO 3 , SO 4 , SO 3 , S 2  O 3 , NO 2 , SCN, OCN, BO 2 , HBO 3 , HPO 4 , PO 4  or H 2  PO 4 , and m is an integer representing the valence of X; or a compound having the formula M n   1  R p , wherein M 1  is alkali metal, calcium, lead or zinc, R is organic mono- or polybasic acid having 1-18 carbon atoms and from 0 to 2 nitrogen atoms, or a benzenesulfonyl or toluenesulfonyl radical; and n and p are integers representing the valences of R and M 1 , respectively or whole fractions thereof.

This is a division of application Ser. No. 524,945, filed Aug. 22, 1983.

The present invention relates to improved blowing agent compositions, their preparation and use.

When making an expanded material such as a foamed synthetic polymeric material, the polymeric material has conventionally been mixed with a blowing agent, such as azodicarbonamide or a hydrazodicarboxylate. The performance requirements of blowing agents have now become more and more critical and changes in the composition of blowing agents can have significant effects on the end product. The instant invention combines zinc formate and a metal salt activator as a blowing agent with improved performance characteristics.

Zinc formate decomposes within about 30 minutes at a temperature of 280° C. or higher and releases CO, CO₂, hydrogen and traces of methane. For most applications, i.e., the expansion of polymers, such temperatures are either too high or gas evolution is too slow, and therefore the use of zinc formate is considered impractical as a blowing agent in commerce.

It has now been unexpectedly found that the decomposition temperature of zinc formate may be lowered and/or the gas evolution accelerated or increased by the addition of the metal activators of the invention.

The use of zinc formate as a blowing agent is known in the prior art. British Pat. No. 1,567,417 discloses foamable polyester composition containing zinc formate. The patent teaches that such composition has improved flame retardant properties.

The thermal decomposition of zinc formate is well known. Dolimare et al, Journal of Inorganic Nuclear Chemistry, 29,621-627 (1967) teaches the decomposition behavior of zinc and manganous formates. Djega-Mariadassou et al, Study of Decompositions Causing Simultaneous Release of Several Gases, IV,--Thermal Decomposition of Zinc Formate Dihydrate and Morphology of Zinc Oxide Residue, Bull. Soc. Chim. France 9,316-3173 (1971) also describes the composition behavior of zinc formate and the role of zinc oxide formed during decomposition. German Publication (Offenlegungsschrift) No. 2,148,099, Apr. 12, 1973, teaches the expansion of thermoplastic polymers using neutral metal salts of formic and/or oxalic acid, and optionally, a stabilizer, such as a sodium phosphite is employed. None of the above prior art teach or suggest the combination of zinc formate and metal salt activators of the instant invention.

The compositions of this invention find general use in foaming any gas expandable polymeric material, especially those which are capable of setting to a normally solid state and having sufficient consistency and strength at the processing temperature (or to be enabled by virtue of the confining device) to retain the gas and preserve a cellular structure in the expanded product. The processing temperature will depend upon a number of factors, including the nature of the polymeric material and its visco-elastic properties, upon the forming equipment being used and upon the nature of the end product desired. In general, for most effective results one must obtain in the polymeric material being expanded a consistency and tensile strength sufficient to retain the individual micropores of gas as discrete cells, preventing coalescence to an undesirable coarse cell structure. This may generally be attained in the case of thermosetting resins by adjustment of the rate and state of cure to give the composition the desired viscosity and strength at gas forming temperature. In the case of thermoplastic resins, the desired consistency and strength will generally be achieved by adjusting the temperature until the proper viscosity is obtained. As the gas forming temperature will vary with the particular composition selected and may change with the composition selected and may change with the composition of the plastic mixture, it will be seen that the temperature employed may vary considerably with the particular application.

The polymer materials which may be used are any type of rubber which is curable or vulcanizable to a solid state, exemplified by natural rubber, or synthetic rubber-like or rubbery polymers of diolefins such as butadiene or isoprene, or their copolymers with such as styrene or acrylonitrile, and butyl rubbers, polymerized halo-diolefins, such as neoprene, polyvinyl chloride, polystyrene, etc., as well as ethylene-propylene copolymers and ethylene-propylene-non-conjugated diene terpolymer elastomers.

The blowing agent compositions are mechanically mixed with the polymeric materials and, if desired, other customary adjuvants, fillers, plasticizers, etc., may also be added, prior to heating the mixture to temperatures at which decomposition of the blowing agent takes place. The amount of the blowing agent composition may vary from 0.05 to 20%, the quantity used depending upon the application and the density desired. Usually 0.1 to 15% suffice, and ordinarily 1.0 to 10% are employed.

The new blowing agents of the invention are a combination of zinc formate and a metal activator which is a compound having the formula M_(n) X, wherein M is sodium or potassium; X is chlorine, bromine, iodine, CO₃, HCO₃, SO₄, HSO₄, SO₃, S₂ O₃, NO₂, SCN, OCN, BO₂, HBO₃, HPO₄, PO₄ or H₂ PO₄, and m is an integer representing the valence of X; or a compound having the formula M_(n) ¹ R_(p), wherein M¹ is alkali metal, calcium, lead or zinc, R is organic mon- or poly-basic acid having 1-18 carbon atoms and from 0 to 2 nitrogen atoms, or a benzenesulfonyl or toluenesulfonyl radical; and n and p are integers representing the valences of R and M¹, respectively or whole fractions thereof.

Preferred metal activators are those where M is Na or K; X is Cl, Br, CO₃, HCO₃, SO₄, H₂ PO₄, HPO₄ or PO₄ ; M¹ is Na, K, Pb or Zn; R is OOCH, OOCCH₃, OOCC₆ H₅ or ethylenediaminetetracetic acid; m, n and p are 1 or 2.

The weight ratio of zinc formate (ZF) to activator (ZF/Act) may be 99/1-2/1, preferably 50/1-2/1, most preferably 20/1-4/1.

The activators, and for that matter the zinc formate, may be used in their hydrated or dehydrated state. The blowing agent composition of this invention were evaluated for their gas evolution efficiency by certain testing methods as described in examples below. Testing method and results provide the practitioner with an easy means to predict suitability of certain activators or ZF/Act ratios for particular applications.

EXAMPLE 1

A dry blend of zinc formate (ZF) with various activators (ZF/Activator=4/1, weight) was thoroughly mixed in a mortar. 250 mg of the mix was weighed into a 25 ml heavy walled Erlenmeyer flask and the flask sealed with a rubber septum. The needle of an empty 100 ml graduate syringe was introduced by penetrating the septum, thus affording a tight seal. The flask, surmounted by the syringe was clamped in a vertical position above a preheated and mechanically stirred silicone bath. With a thermometer properly placed the bath was carefully raised to immerse the under portion of the flask in the hot fluid. The volume of gas evolved into the syringe was observed as indicated in Table I. The final volume of gas was read after the flask and syringe were cooled to room temperature. This volume was subsequently corrected to standard conditions--permitting the calculation of the volume of gas produced per gram of the blowing agent mixture and ZF alone under these conditions.

                  TABLE I                                                          ______________________________________                                         Run                Temp.    cc/g   cc/g                                        No.  Activator     ° C.                                                                             (Comp.)                                                                               (ZF) Minutes                                ______________________________________                                          1   none          288-300  255    255  9                                       2   none          283-285  261    261  30                                      3   NaCl          242-251  286    357  7.5                                     4   NaBr          196-222  283    354  32                                      5   NaI           222-231  279    347  24                                      6   KCl           211-220  295    370  13                                      7   KBr           208-224  307    384  12                                      8   KCl + NaCl    208-218  270    338  17                                      9   NaHCO.sub.3   129-235  285    356  13                                     10   NaHCO.sub.3   226-228  289    361  10                                     11   NaHCO.sub.3   242-243  286    357  6                                      12   KHCO.sub.3    RT-231   279    348  11                                     13   Na.sub.2 CO.sub.3                                                                            215-218  216    270  15                                     14   Na.sub.2 CO.sub.3                                                                            221-228  234    290  10                                     15   K.sub.2 CO.sub.3                                                                             218-219  246    308  10                                     16   Na.sub.2 SO.sub.4                                                                            244-250  304    380  17                                     17   NaNO.sub.2    RT-252   222    277  13                                     18   KNO.sub.3     220-228  225    281  13                                     19   NaOCN         218-219  248    310  12                                     20   NaSCN         214-219  247    310  18                                     21   KOCN          216-218  232    290  10                                     22   KSCN          220-227  283    354  8                                      23   NaOOCCH.sub.3 217-228  275    344  16.5                                   24   Ca(OOCCH.sub.3).sub.2                                                                        201-260  236    295  30                                     25   Pb(OOCCH.sub.3).sub.2                                                                        218-220  270    337  30                                     26   Zn(OOCCH.sub.3).sub.2                                                                        28-274   263    328  15                                     27   Na.sub.2 oxalate                                                                             218-222  258    322  27                                     28   Na.sub.2 malonate                                                                            218-224  211    264  15                                     29   Na stearate   208-233  254    318  35                                     30   Na benzoate   250-256  286    358  9                                      31   Na SO.sub.2 C.sub.6 H.sub.4 -p-CH.sub.3                                                      216-219  218    273  17                                     32   Na salicylate 221-224  278    348  22                                     33   Na, EDTA*     216-217  264    330  26                                     ______________________________________                                          *ethylenediaminetetraacetic acid                                         

The results clearly indicate the surprising effect of the activators on zinc formate performance as blowing agent by either enhancing gas evolution, lowering decomposition temperature or increasing the rate of gas evolution, lowering decomposition temperature or increasing the rate of gas evolution or a combination of these phenomena.

EXAMPLE 2

Following essentially the procedure of Example 1, additional activators were evaluated as summarized in Table II. The weight ratios of ZF/activator were 4/1, except for zinc formate/Na butyrate (9/1), by weight (Run No. 38).

                                      TABLE II                                     __________________________________________________________________________                        Gas evolution                                                                              Gas, cc/g (final)                                                  observed, cc                                                                               based on                                        Run No.                                                                             Activator                                                                              Temp. °C.                                                                     5 min                                                                              10 min                                                                             Final                                                                              Composition                                                                           ZF                                       __________________________________________________________________________     34   K.sub.2 HPO.sub.4                                                                      232-234                                                                              113 --  113 270.7  338.3                                    35   K.sub.2 HPO.sub.4                                                                      221-222                                                                              71.5                                                                               115 121 298.4  373.0                                    36   K.sub.2 HPO.sub.4                                                                      231-232                                                                              105 114 116 272.7  340.4                                    37   Na.sub.2 HPO.sub.4                                                                     222-240                                                                              38   78 113 276.5  345.5                                    38   Na Butyrate                                                                            229-230                                                                              71  118 138 369.9  411.0                                    39   Na Formate                                                                             232-227                                                                              118 132 134 350.0  437.4                                    40   Na Formate                                                                             217-218                                                                              68  112 119 315.0  394.0                                    41   Na n-Hexoate                                                                           231-232                                                                              96  131 135 333.2  416.5                                    42   Na Propionate                                                                          227-230                                                                              86  126 130 333.2  416.5                                    43   Na Isobutyrate                                                                         231-233                                                                              91  110 118 292.0  365.0                                    44   Na-Octoate                                                                             230-233                                                                              77  108 116 275.4  344.2                                    45   K Propionate                                                                           229-230                                                                              117 --  117 275.4  344.2                                    46   K Propionate                                                                           217-218                                                                              91  111 111 284.3  355.0                                    47   K Hexoate                                                                              216-217                                                                              73  112 118 324.9  406.1                                    48   K Hexoate                                                                              228-230                                                                              110.5                                                                              --  110.5                                                                              278.0  347.5                                    49   K Octoate                                                                              228-230                                                                              103 --  110 290.5  363.2                                    50   Na Stearate                                                                            229-230                                                                              62.5                                                                                99 106 312.0  390.0                                    51   K Isobutyrate                                                                          229-230                                                                              108 124 124 312.0  390.0                                    52   K Stearate                                                                             232-233                                                                              51   88 105.5                                                                              268.9  336.1                                    53   K Laurate                                                                              230-231                                                                              65    96.5                                                                             96.5                                                                               285.9  357.3                                    __________________________________________________________________________

In each instance, the activators successfully increased gas evolution at a faster rate and at reduced temperature.

EXAMPLE 3

The effect of ZF/activator weight ratio was investigated following essentially the procedure of Example 1. The test temperature was held constant at 230° C., and gas evolutions were recorded at the intervals listed in Table III (all ratios being by weight).

                                      TABLE III                                    __________________________________________________________________________     Gas Evolutions on Mixtures of Zinc Formate                                     and Postassium Carbonate                                                                Time at 230° C.                                                Run      (min)                                                                 No.                                                                               ZF/K.sub.2 CO.sub.3                                                                  1/2                                                                               2  4  6   8   10  15  20                                           __________________________________________________________________________     54 ZF alone                                                                             17.0                                                                              20.5                                                                              22.5                                                                              25.0                                                                               26.0                                                                               26.0                                                                               26.0                                                                               26.5                                         55 99/1  13.0                                                                              23.0                                                                              32.0                                                                              40.0                                                                               48.0                                                                               57.0                                                                               77.0                                                                               97.0                                         56 98/2  16.0                                                                              27.0                                                                              42.0                                                                              61.0                                                                               76.5                                                                               90.0                                                                               110.0                                                                              --                                           57 95/5  20.0                                                                              35.0                                                                              62.0                                                                              90.0                                                                               110.0                                                                              110.0                                                                              --  --                                           58 90/10 22.0                                                                              51.0                                                                              94.0                                                                              112.0                                                                              113.0                                                                              --  --  --                                           59 80/20 21.0                                                                              58.0                                                                              88.0                                                                              96.0                                                                               98.0                                                                               --  --  --                                           __________________________________________________________________________

It is noted that at ZF/K₂ CO₃ ratios of 80/20-98/2 exceptionally good results are achieved.

EXAMPLE 4

Following the procedure of Example 3, the effect of ZF/Na₂ CO₃ weight ratio was observed. The test results are summarized in Table IV.

                                      TABLE IV                                     __________________________________________________________________________     Gas Evolutions on Mixtures of Zinc Formate                                     and Sodium Carbonate                                                                    Time at 230° C.                                                Run      (min)                                                                 No.                                                                               ZF/Na.sub.2 CO.sub.3                                                                  1/2                                                                               2  4  6   8   10  15  20                                          __________________________________________________________________________     60 ZF alone                                                                              17.0                                                                              20.5                                                                              22.5                                                                              25.0                                                                               26.0                                                                                26.0                                                                               26.0                                                                              26.5                                        61 99/1   12.0                                                                              18.0                                                                              21.0                                                                              27.5                                                                               32.0                                                                               39.0                                                                                52.0                                                                              61.0                                        62 95/5   18.0                                                                              27.0                                                                              40.0                                                                              59.6                                                                               81.0                                                                               98.0                                                                               131.0                                                                              --                                          63 90/10  19.0                                                                              39.0                                                                              69.0                                                                              102.0                                                                              127.0                                                                              140.0                                                                              143.0                                                                              --                                          64 85/15  20.0                                                                              40.0                                                                              71.0                                                                              99.0                                                                               116.0                                                                              124.0                                                                              134.0                                                                              137                                         65 80/20  25.0                                                                              49.0                                                                              78.0                                                                              96.0                                                                               108.0                                                                              113.0                                                                              114.0                                                                              --                                          66 70/30  22.0                                                                              43.0                                                                              59.0                                                                              69.0                                                                               73.0                                                                               75.0                                                                                77.0                                                                              --                                          __________________________________________________________________________

The data indicate that gas evolution rates of ZF are considerably enhanced at ZF/activator ratios of 80/20 to 95/5.

EXAMPLE 5

Temperature has a considerable effect on the rate of gas evolution and the total amount of gas released. A mixture of ZF (90%) and K₂ CO₃ (10%) was chosen for these experiments which were conducted essentially in the manner described in Example 1. The resuls are listed in Table V.

                  TABLE V                                                          ______________________________________                                         Run No.        67     68        69   70                                        ______________________________________                                         Temperature, ° C.:                                                                    228    216       212  209                                        Time                                                                           (Minutes)     Gas Evolution, cc                                                 2             48     33       30   22                                          5             97     57       48   28                                         10            114    100       79   50                                         15            114    108       104  76                                         ______________________________________                                    

EXAMPLE 6

High density polystyrene (Dow Styron [trademark] 6087; 100 parts by weight) was expanded by mixing it with various blowing agent compositions (see Table VI; 0.3 parts) by injection molding the mixture in a Negri Bossi [trademark] (Model No. V17-110FA) injection molding machine under the following conditions:

Barrel temperature--Front: 232° C. middle: 221° C.; rear: 216° C.

Mold cavity temperature: 21° C.

Screw Speed: 60 rpm

Injection pressure: ca. 10 mPa

Back pressure: ca. 1.0 mPa

Cooling cycle: 47 seconds

Screw forward: 10 seconds

The blend was injected into a mold having these dimensions: 11.43 cm×11.43 cm×0.635 cm. The results are provided in Table VI (Run No. 10 is outside the invention).

The blowing agent compositions (BAC) used are identified as follows:

A=ZF and KCl; B=ZF and NaHCO₃ ; C=ZF and NaOOCH.

ZF/Act ratio: 4/1 (weight) in all instances.

                  TABLE VI                                                         ______________________________________                                         Run No.      70       71       72     73                                       ______________________________________                                         BAC          none     A        B      C                                        Density, g/cm.sup.3                                                                         1.162    0.757    0.790  0.830                                    D. Red,.sup. (1), %                                                                         nil      35       32     29                                       Cell structure                                                                              --       fine     fine   fine                                     Cell uniformity                                                                             --       good     good   good                                     Surface      smooth   smooth   smooth smooth                                   Color.sup.(2)                                                                               wh       gr       wh     wh                                       ______________________________________                                          Remarks:                                                                       .sup.(1) D. Red = density reduction                                            .sup.(2) Color: wh = white, gr = gray                                     

What is claimed is:
 1. A blowing agent composition comprising(a) zinc formate, and (b) a compound having the formula M_(m) X, wherein M is sodium or potassium; X is chlorine, bromine, iodine, CO₃, HCO₃, SO₄, SO₃, S₂ O₃, NO₂, SCN, OCN, BO₂, HBO₃, HPO₄, PO₄ or H₂ PO₄, and m is an integer representing the valence of X; or a compound having the formula M_(n) ¹ R_(p), wherein M¹ is alkali metal, calcium, lead or zinc, R is organic mono- or polybasic acid having 1-18 carbon atoms and from 0 to 2 nitrogen atoms, or a benzenesulfonyl or toluenesulfonyl radical; and n and p are integers representing the valences of R and M¹, respectively or whole fractions thereof. 